Chlorinated polyfluorinated ether sulfonate(F-53B),a chromium-fog depressant widely utilized as an alternative to perfluorooctanesulfonate,can transfer from mother to fetus.Recent research has demonstrated that prenat...Chlorinated polyfluorinated ether sulfonate(F-53B),a chromium-fog depressant widely utilized as an alternative to perfluorooctanesulfonate,can transfer from mother to fetus.Recent research has demonstrated that prenatal exposure to F-53B results in synaptic damage in weaning mice.However,the mechanism underpinning F-53B-triggered synaptic damage during fetal development remains unclear.This study aims to investigate the role of the protein kinase A(PKA)/cAMP response element-binding protein(CREB)pathway,a crucial signaling mechanism known as“synaptic switch”,in the early neurotoxicity of F-53B exposure both in vivo and in vitro.Here,C57BL/6 fetal mice were subjected to exposure to F-53B(0,4,and 40μg/L)from gestation days(GD)0 to 14 to evaluate nerve injury prior to delivery.HT22 neurons exposed to F-53B(0,0.016,0.08,0.4,2,and 10μmol/L)for 24 h were utilized to elucidate the underlying mechanism.Our results demonstrated that F-53B significantly increased the fluorescence intensity of Nestin(a neural stem cell marker)in the fetal brain hippocampus(GD14).Subsequently,we found that F-53B downregulated the expression of synaptic plasticity markers(SYP,GAP43,and BDNF)in the fetal brain and HT22 neurons.Further molecular docking analysis revealed that F-53B fits into the ligand-binding pockets of PKA and CREB1.Results showed that F-53B inhibited the translocation of PKA protein from the cytoplasm to the neuronal nuclei and reduced the levels of PKA,CREB1,p-PKA(α/β/γ)-Thr197,and p-CREB1-S133 in the nucleus.Furthermore,the expression of synaptic plasticity markers altered by F-53B could be reversed by a PKA agonist and was intensified by a PKA antagonist.In summary,our findings suggest that intrauterine exposure to F-53B can weaken the expression of synaptic plasticity markers in the fetal brain,with this neurotoxicity being mediated by the cytoplasmic retention of PKA.展开更多
基金supported by the National Science Foundation of China(No.82073503,82173471,82003409,82103823)the Natural Science Foundation of Guangdong Province(No.2021B1515020015,2021A1515012212)the Guangzhou Science and Technology Plan Project(No.2024A04J6476).
文摘Chlorinated polyfluorinated ether sulfonate(F-53B),a chromium-fog depressant widely utilized as an alternative to perfluorooctanesulfonate,can transfer from mother to fetus.Recent research has demonstrated that prenatal exposure to F-53B results in synaptic damage in weaning mice.However,the mechanism underpinning F-53B-triggered synaptic damage during fetal development remains unclear.This study aims to investigate the role of the protein kinase A(PKA)/cAMP response element-binding protein(CREB)pathway,a crucial signaling mechanism known as“synaptic switch”,in the early neurotoxicity of F-53B exposure both in vivo and in vitro.Here,C57BL/6 fetal mice were subjected to exposure to F-53B(0,4,and 40μg/L)from gestation days(GD)0 to 14 to evaluate nerve injury prior to delivery.HT22 neurons exposed to F-53B(0,0.016,0.08,0.4,2,and 10μmol/L)for 24 h were utilized to elucidate the underlying mechanism.Our results demonstrated that F-53B significantly increased the fluorescence intensity of Nestin(a neural stem cell marker)in the fetal brain hippocampus(GD14).Subsequently,we found that F-53B downregulated the expression of synaptic plasticity markers(SYP,GAP43,and BDNF)in the fetal brain and HT22 neurons.Further molecular docking analysis revealed that F-53B fits into the ligand-binding pockets of PKA and CREB1.Results showed that F-53B inhibited the translocation of PKA protein from the cytoplasm to the neuronal nuclei and reduced the levels of PKA,CREB1,p-PKA(α/β/γ)-Thr197,and p-CREB1-S133 in the nucleus.Furthermore,the expression of synaptic plasticity markers altered by F-53B could be reversed by a PKA agonist and was intensified by a PKA antagonist.In summary,our findings suggest that intrauterine exposure to F-53B can weaken the expression of synaptic plasticity markers in the fetal brain,with this neurotoxicity being mediated by the cytoplasmic retention of PKA.
